KR102586128B1 - method for automatically switching the operation mode of plasma-UVC hybrid sterilization device - Google Patents

Abstract

The present invention is a technology for automatically switching between plasma irradiation mode and ultraviolet irradiation mode a sterilizing device for disinfecting items in a vehicle console box with ultraviolet rays and disinfecting the driver's hands with plasma. The sterilizing device installed in the vehicle console box is It relates to a technology that turns on and off ultraviolet sterilization operation according to a change in the position of the cap of a vehicle console box and controls plasma sterilization operation on and off depending on whether the human body touches the sterilizing device. In particular, when an environmental change to the hybrid sterilization device (e.g., change in position, change in illumination, human touch) occurs without the user's switching operation manipulation of the hybrid sterilization device, the ultraviolet sterilization operation is naturally turned on and off, and the plasma sterilization operation is naturally turned on and off. This is a technology that allows the turn-on and turn-off of sterilization operations to occur naturally. According to the present invention, by distinguishing and identifying the first or second environmental changes applied to the housing member, when the first environmental change occurs regardless of the user's mode selection, the mode for disinfecting portable items in the vehicle console box is activated. It has the advantage of being able to operate in a mode that disinfects the driver's hands when a second environmental change occurs.

Description

Method for automatically switching the operation mode of plasma-UVC hybrid sterilization device}

The present invention relates to a technology for automatically switching between plasma irradiation mode and ultraviolet irradiation mode in a sterilizing device for disinfecting items in a vehicle console box with ultraviolet rays and disinfecting the driver's hands with plasma.

More specifically, the present invention is a sterilization device mounted in a vehicle console box that controls ultraviolet sterilization operation on and off according to a change in the position of the cap of the vehicle console box and performs a plasma sterilization operation depending on whether the human body touches the sterilization device. It's about on-off control technology.

In particular, when an environmental change to the hybrid sterilization device (e.g., change in position, change in illumination, human touch) occurs without the user's switching operation manipulation of the hybrid sterilization device, the ultraviolet sterilization operation is naturally turned on and off, and the plasma sterilization operation is naturally turned on and off. This is a technology that allows the turn-on and turn-off of sterilization operations to occur naturally.

Plasma, which is generally irradiated for sterilization, is known to be harmless even when irradiated to the human body. In addition, ultraviolet rays (e.g. UVC) have a sterilizing power that is better than that of plasma, but are known to be harmful when irradiated on the human body.

In addition, ultraviolet rays have various effects such as sterilization, disinfection, deodorization, and oxidation and decomposition of non-biodegradable organic substances, but they are harmful when irradiated directly to the human body. Therefore, if used with care to avoid direct exposure to the human body, they are not used for the purpose of managing household items. It has an excellent effect.

And, in recent times, because the environment is ubiquitous with various infectious pathogens (e.g. COVID-19), people often use various means (e.g. portable disinfection kits) to disinfect their hands.

In particular, drivers have become accustomed to disinfecting their hands by exposing them to a portable disinfection kit before touching various objects in the car.

However, there is a problem that the disinfectant sprayed on the driver's hands cannot also disinfect the driver's belongings (e.g. cell phone, mask).

As a result, there is a problem that contaminants may be transferred to the driver's hands if the driver touches his or her cell phone after disinfecting his or her hands or touches the mask while taking it off and putting it on.

As a result, in order for the driver to be safe from various infectious pathogens when looking at the interior of the vehicle, it is necessary to disinfect the driver's hands as well as the mobile phone or mask carried by the driver.

However, as seen above, there is a problem that portable items cannot be disinfected with the disinfectant that is sprayed on people's hands.

Accordingly, there is a need to implement technology that can solve the problems of the prior art as described above by providing a sterilizing device that can disinfect the hand of the vehicle driver as well as disinfect the portable items carried by the vehicle driver.

[Prior art literature]
[Patent Document]
Republic of Korea Patent Publication No. 10-2014-0095938 (2014.08.04) “Car portable device storage device”
Republic of Korea Patent Publication No. 10-2018-0136617 (2018.12.26) “Portable deodorizing, drying, sterilizing device and method of controlling the same”
Republic of Korea Patent Publication No. 10-2017-0003860 (2017.01.10) “Portable multi-purpose sterilizing device”

The present invention was proposed in consideration of the above, and the object of the present invention is to provide a plasma-UVC hybrid that can disinfect portable items (e.g., mobile phones, masks) carried by a vehicle driver and also disinfect the hands of the driver of the vehicle. To provide a method for automatically switching the operation mode of a sterilizing device.

In addition, the purpose of the present invention is to provide plasma-UVC that operates in a mode to disinfect the driver's belongings when a certain situation occurs, or to disinfect the driver's hands when another situation occurs, regardless of the user's mode selection. To provide a method for automatically switching the operation mode of a hybrid sterilization device.

In order to achieve the above object, the present invention provides a method for automatically switching the operation mode of a plasma-UVC hybrid sterilization device including a housing member, a UVC LED member, a plasma irradiation member, and a sterilization mode control member so that it can be attached to the bottom of the cab of a vehicle console box. As, (a) the sterilization mode control member controls the turn-on operation of the UVC LED member so that the UVC LED member irradiates ultraviolet rays; (b) identifying, by the sterilization mode control member, a first environmental change applied to the housing member; (c) controlling the sterilization mode control member to turn off the operation of the UVC LED member in response to the identification result of the first environmental change; (d) the sterilization mode control member identifying a second environmental change applied to the housing member; (e) the sterilization mode control member turning on and controlling the operation of the plasma irradiation member in response to the identification result of the second environmental change; (f) turning off the operation of the plasma irradiation member in the turned-on state by the sterilization mode control member over a preset time period.

According to the first embodiment of the present invention, the plasma-UVC hybrid sterilization device may further include a position detection sensor member.

And, step (b) includes detecting, by the position detection sensor member, a change in position applied to the housing member in response to the opening of the vehicle console box cap; The sterilization mode control member may be provided with a step of identifying the detection of a position change through the position detection sensor member as the first environmental change.

In addition, step (c) may include a step where the sterilization mode control member turns off the operation of the UVC LED member in response to the identification result of the position change detection through the position detection sensor member.

Here, between steps (e) and (f), the position detection sensor member detects the return of the housing member in response to the closing of the vehicle console box cap; It may further include a step of the sterilization mode control member turning off the operation of the plasma irradiation member in response to a return detection result of the housing member through the position detection sensor member.

According to the second embodiment of the present invention, the plasma-UVC hybrid sterilization device may further include an illuminance sensor member.

And, step (b) includes detecting, by the illumination sensor member, an increase in illumination applied to the housing member in response to the opening of the vehicle console box cap; The sterilization mode control member may be provided with a step of identifying an increase in illuminance detected through the illuminance sensor member as the first environmental change.

In addition, step (c) may include a step where the sterilization mode control member turns off the operation of the UVC LED member in response to the identification result of detection of an increase in illuminance through the illuminance sensor member.

Here, between steps (e) and (f), the illuminance sensor member detects a decrease in illuminance applied to the housing member in response to the closing of the vehicle console box cap; It may further include a step of the sterilization mode control member turning off the operation of the plasma irradiation member in response to a result of detecting a decrease in illuminance of the housing member through the illuminance sensor member.

According to the third embodiment of the present invention, the plasma-UVC hybrid sterilization device may further include a feed terminal pad member and a current collector terminal pad member.

And, step (b) may include a step where the sterilization mode control member identifies separation of the current collector terminal pad member from the feed terminal pad member as the first environmental change.

In addition, step (c) may include a step where the sterilization mode control member turns off the operation of the UVC LED member in response to the separation and identification result of the current collector terminal pad member.

Here, between steps (e) and (f), the sterilization mode control member identifies the coupling of the current collector terminal pad member to the feed terminal pad member; It may further include a step of the sterilization mode control member turning off the operation of the plasma irradiation member in response to the identification result of the coupling of the current collector terminal pad member to the feed terminal pad member.

According to the fourth embodiment of the present invention, the plasma-UVC hybrid sterilization device may further include a touch sensor member.

Here, between steps (c) and (d), the touch sensor member may further include detecting contact of the human body applied to the housing member.

And, step (d) may include the step of the sterilization mode control member identifying detection of human contact by the touch sensor member as the second environmental change.

In addition, step (e) may include a step where the sterilization mode control member turns on and controls the operation of the plasma irradiation member in response to the identification result of detection of human contact through the touch sensor member.

Meanwhile, the computer program according to the present invention is combined with hardware and stored in a medium to execute the method of automatically switching the operating mode of the plasma-UVC hybrid sterilization device as described above.

The present invention has the advantage of being able to disinfect a vehicle console box by ultraviolet irradiation or disinfect the human body by plasma irradiation by identifying the first or second environmental change applied to the housing member.

In addition, the present invention distinguishes between the first and second environmental changes applied to the housing member, so that when the first environmental change occurs regardless of the user's mode selection, the mode is used to disinfect portable items in the vehicle console box. It has the advantage of being able to operate in a mode that disinfects the driver's hands when a second environmental change occurs.

[Figure 1] is a diagram showing the use state of the plasma-UVC hybrid sterilization device according to the present invention in the process of irradiating ultraviolet rays to the inside of the vehicle console box.
[Figure 2] is an example showing the state in which the plasma-UVC hybrid sterilization device attached to the bottom of the cap is changed in the process of lifting and opening the cap of the vehicle console box in [Figure 1],
[Figure 3] is a usage state diagram of the process in which the plasma-UVC hybrid sterilization device irradiates plasma by separating the plasma-UVC hybrid sterilization device from the cap of the vehicle console box shown in [Figure 2] and touching it with both hands. ,
[Figure 4] is a block diagram of a plasma-UVC hybrid sterilization device for implementing the present invention,
[Figure 5] is a flowchart showing the automatic operation mode switching process of the plasma-UVC hybrid sterilization device according to the present invention.
[Figure 6] is a flow chart showing the automatic operation mode switching process of the plasma-UVC hybrid sterilization device according to the first embodiment of the present invention.
[Figure 7] is a flow chart showing the automatic operation mode switching process of the plasma-UVC hybrid sterilization device according to the second embodiment of the present invention.
[Figure 8] is a flowchart showing the automatic operation mode switching process of the plasma-UVC hybrid sterilization device according to the third embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

[Figure 1] is a state diagram of the process in which the plasma-UVC hybrid sterilization device according to the present invention irradiates ultraviolet rays to the inside of the vehicle console box, and [Figure 2] shows the process of lifting the cap of the vehicle console box in [Figure 1]. This is an example diagram showing the state in which the plasma-UVC hybrid sterilization device attached to the bottom of the cap changes position during the opening process, and [Figure 3] shows the plasma-UVC hybrid sterilization device from the cap of the vehicle console box in [Figure 2]. This is a diagram of the process in which the plasma-UVC hybrid sterilization device irradiates plasma as it is separated and touched in both hands of the user.

As shown in [FIG. 1], the plasma-UVC hybrid sterilization device 100 adopted to implement the present invention uses plasma when the cap 20 covers the vehicle console box 10 and seals the vehicle console box 10. -Even if ultraviolet rays are irradiated from the UVC hybrid sterilization device 100, it is not an environment in which they are irradiated directly to passengers in the vehicle, so ultraviolet rays are irradiated from the plasma-UVC hybrid sterilization device 100 to carry items in the vehicle console box 10 (e.g. Cell phones, masks) can be sterilized.

At this time, as shown in [FIG. 2], if ultraviolet rays are irradiated even when the cap 20 is open, it is harmful to passengers in the vehicle, so the irradiation of ultraviolet rays needs to be automatically controlled to stop.

In addition, after the ultraviolet irradiation of the plasma-UVC hybrid sterilization device 100 is stopped, when the user touches the plasma-UVC hybrid sterilization device 100 with his hand as shown in [FIG. 3], it is necessary to ensure that the user's hands are also sterilized. In this case, it is desirable to ensure sterilization through plasma irradiation that is harmless to the human body, as shown in [Figure 3].

In this way, a plasma-UVC hybrid sterilization device 100 installed in the vehicle console box 10 operates in the ultraviolet irradiation mode under certain circumstances without the user having to separately operate the irradiation of ultraviolet rays or plasma. In other situations, automatic switching control of each mode is required to operate in plasma irradiation mode.

[Figure 4] is a block diagram of a plasma-UVC hybrid sterilization device for implementing the present invention.

The plasma-UVC hybrid sterilization device 100 adopted to implement the present invention as described above includes a housing member 110 and UVC so that it can be attached to the lower surface of the cap 20 of the vehicle console box 10 as shown in [Figure 4]. An LED member 120, a plasma irradiation member 130, a change detection sensor member 140, a sterilization mode control member 150, a power supply terminal pad member 160, and a current collector terminal pad member 170 may be provided.

Here, the change detection sensor member 140 may include a position detection sensor member 141, a touch sensor member 142, and an illumination sensor member 143.

The automatic operation mode switching process of the plasma-UVC hybrid sterilization device 100 having the above configuration will be examined in detail below through [FIGS. 5] to [FIG. 8].

[Figure 5] is a flowchart showing the automatic operation mode switching process of the plasma-UVC hybrid sterilization device according to the present invention.

Step (S110): The sterilization mode control member 150 provided in the plasma-UVC hybrid sterilization device 100 controls the turn-on operation of the UVC LED member 120 so that the UVC LED member 120 irradiates ultraviolet rays.

Steps (S120, S130): The sterilization mode control member 150 identifies the first environmental change (e.g., position change, illuminance change, separation between the feed terminal and current collector terminal pad member) applied to the housing member 110 and The operation of the UVC LED member 120 may be controlled to turn off in response to the identification result of the first environmental change.

Here, the 'first environmental change' refers to the plasma-UVC hybrid sterilization device 100 mounted on the lower surface of the cab 20 when the cab 20 is opened from the vehicle console box 10 as shown in [FIG. 2]. It indicates that a change in position or an increase in illumination occurs in the housing member 110 provided in ).

In addition, the 'first environmental change' refers to, for example, when the plasma-UVC hybrid sterilization device 100 is separated from the lower surface of the cap 20 in the state shown in [FIG. 2], the change that is integrally fixed to the lower part of the cap 20 This shows a case where the feed terminal pad member 160 and the current collector terminal pad member 170 integrally fixed to the upper surface of the housing member 110 are separated.

Steps (S140, S150): When the sterilization mode control member 150 identifies a second environmental change (e.g., contact with the human body) applied to the housing member 110, the sterilization mode control member 150 detects the second environmental change. The operation of the plasma irradiation member 130 may be turned on and controlled in response to the identification result.

Here, the 'second environment change' refers to, for example, the plasma-UVC hybrid sterilization device 100 being separated from the lower surface of the cap 20 in the state of [FIG. 2] and the user using the plasma as shown in [FIG. 3]. -This indicates a case where the outer surface of the housing member 110 of the UVC hybrid sterilization device 100 is touched, and the touch sensor member 142 detects the touch.

Step (S160): Then, the sterilization mode control member 150 may control the turn-off operation of the plasma irradiation member 130 in the turned-on state as a preset time (e.g., 30 seconds) elapses.

Meanwhile, between steps S130 and S140, when the touch sensor member 142 detects human contact with the housing member 110, the sterilization mode control member 150 is activated in step S140. As a second environmental change, detection of human contact by the touch sensor member 142 may be identified.

Next, in step S150, the sterilization mode control member 150 may turn on and control the operation of the plasma irradiation member 130 in response to the identification result of human contact detection through the touch sensor member 142.

[Figure 6] is a flowchart showing the automatic operation mode switching process of the plasma-UVC hybrid sterilization device according to the first embodiment of the present invention.

Step (S210): The sterilization mode control member 150 provided in the plasma-UVC hybrid sterilization device 100 controls the turn-on operation of the UVC LED member 120 so that the UVC LED member 120 irradiates ultraviolet rays.

Steps (S220, S230): The first position detection sensor member 141 adopted as the change detection sensor member 140 is applied to the housing member 110 in response to the opening of the cap 20 of the vehicle console box 10. Changes in location as environmental changes can be detected.

Next, the sterilization mode control member 150 detects the position sensor member 141 according to a change in the position of the housing member 110 in response to the opening of the cap 20 as shown in [FIG. 2] as the first environmental change. Detection results can be identified.

Step (S240): At this time, the sterilization mode control member 150 operates the UVC LED member 120 in response to identifying the result of a change in the position of the housing member 110 detected by the position detection sensor member 141. Turn-off control is possible.

Steps (S250, S260): Then, the sterilization mode control member 150 may identify a second environmental change (eg, contact with the human body) applied to the housing member 110, as shown in [FIG. 3].

Subsequently, the sterilization mode control member 150 may turn on and control the operation of the plasma irradiation member 130 in response to the identification result of the second environmental change.

Step (S270): Then, the sterilization mode control member 150 may control the turn-off operation of the plasma irradiation member 130 in the turned-on state as a preset time (eg, 30 seconds) elapses.

Meanwhile, between steps S260 and S270, for example, the housing member 110 is closed in response to the closing of the cap 20 of the vehicle console box 10 from the state of [FIG. 2] to the state of [FIG. 1]. When returning, the position detection sensor member 141 can detect the return.

At this time, the sterilization mode control member 150 turns off the operation of the plasma irradiation member 130 in response to the result detected by the position detection sensor member 141 for a change in position due to the return of the housing member 110. You can.

On the other hand, between steps S240 and S250, when the touch sensor member 142 detects the contact of the human body applied to the housing member 110 according to user manipulation as shown in [FIG. 3], step In (S250), the sterilization mode control member 150 identifies detection of human contact by the touch sensor member 142 as the second environmental change.

Next, in step S260, the sterilization mode control member 150 may turn on and control the operation of the plasma irradiation member 130 in response to the identification result of human contact detection through the touch sensor member 142.

[Figure 7] is a flowchart showing the automatic operation mode switching process of the plasma-UVC hybrid sterilization device according to the second embodiment of the present invention.

Step (S310): The sterilization mode control member 150 provided in the plasma-UVC hybrid sterilization device 100 controls the turn-on operation of the UVC LED member 120 so that the UVC LED member 120 irradiates ultraviolet rays.

Steps (S320, S330): The illuminance sensor member 143 adopted as the change detection sensor member 140 is, for example, a housing member ( When detecting an increase in illuminance as the first environmental change applied to the 110), the sterilization mode control member 150 identifies the detection result of the illuminance sensor member 143 according to the increase in illuminance of the housing member 110 as the first environmental change. can do.

Here, inside the vehicle console box 10, the cap 20 is opened in the process of maintaining the UVC LED member 120 in the turn-on state, so the illuminance sensor member 143 is opened due to the opening of the cap 20. In order to detect that the illuminance has increased, the illuminance sensor member 143 preferably needs to be installed in the housing member 110 at a location that is not affected by the ultraviolet rays of the UVC LED member 120.

Step (S340): Next, the sterilization mode control member 150 operates the UVC LED member 120 in response to identifying the result of an increase in illuminance for the housing member 110 detected by the illuminance sensor member 143. Turn-off control is possible.

On the other hand, if the illuminance sensor member 143 is installed in the housing member 110 at a position exposed to ultraviolet rays of the UVC LED member 120, the illuminance sensor member 143 in steps (S320 and S330) is the cap. In response to the opening of (20), ultraviolet exposure from the UVC LED member 120 and illuminance of 'different sensitivity' may be detected.

As a result, in step S340, the sterilization mode control member 150 identifies the illuminance result of 'different sensitivity' for the housing member 110 detected by the illuminance sensor member 143 and responds to this by identifying the UVC LED member. The operation of 120 can also be controlled to turn off.

Steps (S350, S360): The sterilization mode control member 150 can identify a second environmental change (e.g., contact with the human body) applied to the housing member 110 according to user operation, as shown in [FIG. 3]. there is.

At this time, the sterilization mode control member 150 may turn on and control the operation of the plasma irradiation member 130 in response to the identification result of the second environmental change.

Step (S370): Then, the sterilization mode control member 150 may control the turn-off operation of the plasma irradiation member 130 in the turned-on state as a preset time (eg, 30 seconds) elapses.

Meanwhile, between steps S360 and S370, for example, in the state of [FIG. 2] to the state of [FIG. 1], the housing member 110 is attached in response to the closing of the cap 20 of the vehicle console box 10. The illuminance sensor member 143 can detect the applied decrease in illuminance.

At this time, the sterilization mode control member 150 may turn off the operation of the plasma irradiation member 130 in response to the detection result of the illuminance sensor member 143 corresponding to the decrease in illuminance applied to the housing member 110. .

Here, if the illuminance sensor member 143 is installed in the housing member 110 at a position exposed to ultraviolet rays of the UVC LED member 120, the illuminance sensor member 143 in steps (S320 and S330) is the cap. In response to the closing of (20), an illuminance level corresponding to ultraviolet ray exposure from the UVC LED member 120 may be detected.

At this time, the sterilization mode control member 150 turns off the operation of the plasma irradiation member 130 in response to the detection result of the illuminance sensor member 143 for the illuminance of the ultraviolet ray exposure applied to the housing member 110. It may be possible.

On the other hand, between steps S340 and S350, for example, when the touch sensor member 142 detects the contact of the human body applied to the housing member 110 as shown in [FIG. 3], in step S350 The sterilization mode control member 150 identifies the detection of human contact by the touch sensor member 142 as the second environmental change.

Next, in step S360, the sterilization mode control member 150 may turn on and control the operation of the plasma irradiation member 130 in response to the identification result of human contact detection through the touch sensor member 142.

[Figure 8] is a flowchart showing the automatic operation mode switching process of the plasma-UVC hybrid sterilization device according to the third embodiment of the present invention.

Step (S410): The sterilization mode control member 150 provided in the plasma-UVC hybrid sterilization device 100 controls the turn-on operation of the UVC LED member 120 so that the UVC LED member 120 irradiates ultraviolet rays.

Step (S420): The sterilization mode control member 150 is a first environmental change applied to the housing member 110 from the state in [FIG. 2] to the state in [FIG. 3], for example, on the lower surface of the cap 20. It can be seen that the current collector terminal pad member 170 fixed to one surface of the housing member 110 is separated from the fixed power feed terminal pad member 160.

Step (S430): Next, the sterilization mode control member 150 turns off the operation of the UVC LED member 120 in response to the separation and identification result of the current collector terminal pad member 170 with respect to the feed terminal pad member 160. can do.

Steps (S440, S450): The sterilization mode control member 150 identifies the second environmental change (e.g., contact with the human body) applied to the housing member 110 according to the user's operation, as shown in [FIG. 3]. You can.

At this time, the sterilization mode control member 150 may turn on and control the operation of the plasma irradiation member 130 in response to the identification result of the second environmental change.

Step (S460): Then, the sterilization mode control member 150 may control the turn-off operation of the plasma irradiation member 130 in the turned-on state as a preset time (e.g., 30 seconds) elapses.

Meanwhile, between steps S450 and S460, the sterilization mode control member 150 closes the cap 20 of the vehicle console box 10 from the state in [FIG. 2] to the state in [FIG. 1]. Correspondingly, the coupling of the current collector terminal pad member 170 to the feed terminal pad member 160 can be identified.

At this time, the sterilization mode control member 150 may turn off the operation of the plasma irradiation member 130 in response to the identification result of the coupling of the current collector terminal pad member 170 to the power feed terminal pad member 160.

On the other hand, between steps S430 and S440, the touch sensor member 142 may detect the contact of the human body applied to the housing member 110, for example, as shown in [FIG. 3].

As a result, in step S440, the sterilization mode control member 150 can identify the detection of human contact by the touch sensor member 142 as the second environmental change.

Next, in step S450, the sterilization mode control member 150 may turn on and control the operation of the plasma irradiation member 130 in response to the identification result of human contact detection through the touch sensor member 142.

Meanwhile, the present invention can be implemented in the form of computer-readable code on a computer-readable non-volatile recording medium. These non-volatile recording media include various types of storage devices, such as hard disks, SSDs, CD-ROMs, NAS, magnetic tapes, web disks, and cloud disks. Codes are distributed and stored in multiple storage devices connected to a network. and can also be implemented in a form that is executed. Additionally, the present invention may be implemented in the form of a computer program stored on a medium in order to execute a specific procedure in combination with hardware.

10: Vehicle console box
20: cap
100: Plasma-UVC hybrid sterilization device according to the present invention
110: Housing member
120: UVC LED member
130: Plasma irradiation member
140: Change detection sensor member
141: Position detection sensor member
142: Touch sensor member
143: Illuminance sensor member
150: Sterilization mode control member
160: Feed terminal pad member
170: Current collector terminal pad member

Claims (9)

A housing member 110, a UVC LED member 120, a plasma irradiation member 130, a sterilization mode control member 150, and a power supply terminal pad member 160 are attached to the lower surface of the cab 20 of the vehicle console box 10. ), a method of automatically switching the operation mode of the plasma-UVC hybrid sterilization device 100 having a current collector terminal pad member 170,
(a) the sterilization mode control member 150 controls the turn-on operation of the UVC LED member 120 so that the UVC LED member 120 irradiates ultraviolet rays;
(b) the first including the positional change and illuminance change applied by the sterilization mode control member 150 to the housing member 110, and separation between the feed terminal pad member 160 and the current collector terminal pad member 170 identifying environmental changes;
(c) the sterilization mode control member 150 turning off the operation of the UVC LED member 120 in response to the identification result of the first environmental change;
(d) the sterilization mode control member 150 identifying a second environmental change including human contact with the outer surface of the housing member 110;
(e) the sterilization mode control member 150 turning on and controlling the operation of the plasma irradiation member 130 in response to the identification result of the second environmental change;
(f) the sterilization mode control member 150 is configured to include a step of turning off the operation of the plasma irradiation member 130 that is turned on according to the elapse of a preset time,
In step (c), the sterilization mode control member 150 turns on the operation of the UVC LED member 120 in response to the separation and identification result of the current collector terminal pad member 170 from the feed terminal pad member 160. A method of automatically switching the operation mode of a plasma-UVC hybrid sterilization device, comprising the step of controlling it to turn off.
In claim 1,
The plasma-UVC hybrid sterilization device 100 further includes a position detection sensor member 141,
The step (b) includes the position detection sensor member 141 detecting a change in position applied to the housing member 110 in response to the opening of the vehicle console box cap 20, and the sterilization mode control member (150) is provided with a step of identifying the detection of a position change through the position detection sensor member 141 as the first environmental change,
The step (c) includes the sterilization mode control member 150 turning off the operation of the UVC LED member 120 in response to the identification result of the position change detection through the position detection sensor member 141. A method for automatically switching the operation mode of a plasma-UVC hybrid sterilization device, comprising:
In claim 2,
Between step (e) and step (f),
The position detection sensor member 141 detects the return of the housing member 110 in response to the closing of the vehicle console box cap 20;
Further comprising the step of the sterilization mode control member 150 turning off the operation of the plasma irradiation member 130 in response to a return detection result of the housing member 110 through the position detection sensor member 141. A method for automatically switching the operation mode of a plasma-UVC hybrid sterilization device, characterized in that:
In claim 1,
The plasma-UVC hybrid sterilization device 100 further includes an illuminance sensor member 143,
The step (b) is a step in which the illuminance sensor member 143 detects an increase in illuminance applied to the housing member 110 in response to the opening of the vehicle console box cap 20, and the sterilization mode control member ( 150) includes a step of identifying detection of an increase in illuminance through the illuminance sensor member 143 as the first environmental change,
The step (c) includes the step of the sterilization mode control member 150 turning off the operation of the UVC LED member 120 in response to the identification result of detection of an increase in illuminance through the illuminance sensor member 143. A method for automatically switching the operation mode of a plasma-UVC hybrid sterilization device, characterized in that.
In claim 4,
Between step (e) and step (f),
detecting, by the illumination sensor member 143, a decrease in illumination applied to the housing member 110 in response to the closing of the vehicle console box cap 20;
Further comprising the step of the sterilization mode control member 150 turning off the operation of the plasma irradiation member 130 in response to a result of detecting a decrease in illuminance of the housing member 110 through the illuminance sensor member 143. A method for automatically switching the operation mode of a plasma-UVC hybrid sterilization device, characterized in that:
delete In claim 1,
Between step (e) and step (f),
The sterilization mode control member 150 identifying the coupling of the current collector terminal pad member 170 to the feed terminal pad member 160;
A step of the sterilization mode control member 150 turning off the operation of the plasma irradiation member 130 in response to the identification result of the coupling of the current collector terminal pad member 170 to the feed terminal pad member 160. A method for automatically switching the operation mode of a plasma-UVC hybrid sterilization device, comprising:
In claim 1,
The plasma-UVC hybrid sterilization device 100 further includes a touch sensor member 142,
Between step (c) and step (d), the touch sensor member 142 further includes a step of detecting human contact with the housing member 110,
The step (d) includes the step of the sterilization mode control member 150 identifying detection of human contact by the touch sensor member 142 as the second environmental change,
The step (e) includes the step of the sterilization mode control member 150 turning on and controlling the operation of the plasma irradiation member 130 in response to the identification result of human contact detection through the touch sensor member 142. A method for automatically switching the operation mode of a plasma-UVC hybrid sterilization device, characterized in that.
A computer program combined with hardware and stored in a storage medium to execute the method for automatically switching the operating mode of the plasma-UVC hybrid sterilization device according to any one of claims 1 to 5, 7, and 8.

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